/********************************************************************
 * gnc-schedxactions-xml-v2.c -- xml routines for transactions      *
 * Copyright (C) 2001,2007 Joshua Sled <jsled@asynchronous.org>     *
 *                                                                  *
 * This program is free software; you can redistribute it and/or    *
 * modify it under the terms of the GNU General Public License as   *
 * published by the Free Software Foundation; either version 2 of   *
 * the License, or (at your option) any later version.              *
 *                                                                  *
 * This program is distributed in the hope that it will be useful,  *
 * but WITHOUT ANY WARRANTY; without even the implied warranty of   *
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the    *
 * GNU General Public License for more details.                     *
 *                                                                  *
 * You should have received a copy of the GNU General Public License*
 * along with this program; if not, contact:                        *
 *                                                                  *
 * Free Software Foundation           Voice:  +1-617-542-5942       *
 * 51 Franklin Street, Fifth Floor    Fax:    +1-617-542-2652       *
 * Boston, MA  02110-1301,  USA       gnu@gnu.org                   *
 *                                                                  *
 *******************************************************************/

#include "config.h"

#include <glib.h>
#include <string.h>

#include "SX-book.h"

#include "gnc-xml-helper.h"

#include "sixtp.h"
#include "sixtp-utils.h"
#include "sixtp-parsers.h"
#include "sixtp-utils.h"
#include "sixtp-dom-parsers.h"
#include "sixtp-dom-generators.h"

#include "gnc-xml.h"

#include "io-gncxml-v2.h"
#include "io-gncxml-gen.h"

#include "sixtp-dom-parsers.h"

#include "gnc-gconf-utils.h"

#undef G_LOG_DOMAIN
#define G_LOG_DOMAIN "gnc.backend.file.sx"

#define SX_ID                   "sx:id"
#define SX_NAME                 "sx:name"
#define SX_ENABLED              "sx:enabled"
#define SX_AUTOCREATE           "sx:autoCreate"
#define SX_AUTOCREATE_NOTIFY    "sx:autoCreateNotify"
#define SX_ADVANCE_CREATE_DAYS  "sx:advanceCreateDays"
#define SX_ADVANCE_REMIND_DAYS  "sx:advanceRemindDays"
#define SX_INSTANCE_COUNT       "sx:instanceCount"
#define SX_START                "sx:start"
#define SX_LAST                 "sx:last"
#define SX_NUM_OCCUR            "sx:num-occur"
#define SX_REM_OCCUR            "sx:rem-occur"
#define SX_END                  "sx:end"
#define SX_TEMPL_ACCT           "sx:templ-acct"
#define SX_FREQSPEC             "sx:freqspec"
#define SX_SCHEDULE             "sx:schedule"
#define SX_SLOTS                "sx:slots"
#define SX_DEFER_INSTANCE       "sx:deferredInstance"

/*
 * FIXME: These should be defined in a header somewhere
 */

#define GNC_ACCOUNT_TAG         "gnc:account"
#define GNC_TRANSACTION_TAG     "gnc:transaction"
#define GNC_SCHEDXACTION_TAG    "gnc:schedxaction"

const gchar *schedxaction_version_string = "1.0.0";
const gchar *schedxaction_version2_string = "2.0.0";

xmlNodePtr
gnc_schedXaction_dom_tree_create(SchedXaction *sx)
{
    xmlNodePtr	ret;
    const GDate	*date;
    gint        instCount;
    const GncGUID        *templ_acc_guid;
    gboolean allow_2_2_incompat = TRUE;

    templ_acc_guid = xaccAccountGetGUID(sx->template_acct);

    /* FIXME: this should be the same as the def in io-gncxml-v2.c */
    ret = xmlNewNode( NULL, BAD_CAST GNC_SCHEDXACTION_TAG );

    if (allow_2_2_incompat)
        xmlSetProp(ret, BAD_CAST "version", BAD_CAST schedxaction_version2_string);
    else
        xmlSetProp(ret, BAD_CAST "version", BAD_CAST schedxaction_version_string);

    xmlAddChild( ret,
                 guid_to_dom_tree(SX_ID,
                                  xaccSchedXactionGetGUID(sx)) );

    xmlNewTextChild( ret, NULL, BAD_CAST SX_NAME, BAD_CAST xaccSchedXactionGetName(sx) );

    if (allow_2_2_incompat)
    {
        xmlNewTextChild( ret, NULL, BAD_CAST SX_ENABLED,
                         BAD_CAST ( sx->enabled ? "y" : "n" ) );
    }

    xmlNewTextChild( ret, NULL, BAD_CAST SX_AUTOCREATE,
                     BAD_CAST ( sx->autoCreateOption ? "y" : "n" ) );
    xmlNewTextChild( ret, NULL, BAD_CAST SX_AUTOCREATE_NOTIFY,
                     BAD_CAST ( sx->autoCreateNotify ? "y" : "n" ) );
    xmlAddChild(ret, int_to_dom_tree(SX_ADVANCE_CREATE_DAYS,
                                     sx->advanceCreateDays));
    xmlAddChild(ret, int_to_dom_tree(SX_ADVANCE_REMIND_DAYS,
                                     sx->advanceRemindDays));

    instCount = gnc_sx_get_instance_count( sx, NULL );
    xmlAddChild( ret, int_to_dom_tree( SX_INSTANCE_COUNT,
                                       instCount ) );

    xmlAddChild( ret,
                 gdate_to_dom_tree( SX_START,
                                    xaccSchedXactionGetStartDate(sx) ) );

    date = xaccSchedXactionGetLastOccurDate(sx);
    if ( g_date_valid( date ) )
    {
        xmlAddChild( ret, gdate_to_dom_tree( SX_LAST, date ) );
    }

    if ( xaccSchedXactionHasOccurDef(sx) )
    {

        xmlAddChild(ret, int_to_dom_tree( SX_NUM_OCCUR,
                                          xaccSchedXactionGetNumOccur(sx)));
        xmlAddChild(ret, int_to_dom_tree( SX_REM_OCCUR,
                                          xaccSchedXactionGetRemOccur(sx)));

    }
    else if ( xaccSchedXactionHasEndDate(sx) )
    {
        xmlAddChild( ret,
                     gdate_to_dom_tree( SX_END,
                                        xaccSchedXactionGetEndDate(sx) ) );
    }

    /* output template account GncGUID */
    xmlAddChild( ret,
                 guid_to_dom_tree(SX_TEMPL_ACCT,
                                  templ_acc_guid));

    if (allow_2_2_incompat)
    {
        xmlNodePtr schedule_node = xmlNewNode(NULL,
                                              BAD_CAST "sx:schedule");
        GList *schedule = gnc_sx_get_schedule(sx);
        for (; schedule != NULL; schedule = schedule->next)
        {
            xmlAddChild(schedule_node, recurrence_to_dom_tree("gnc:recurrence", (Recurrence*)schedule->data));
        }
        xmlAddChild(ret, schedule_node);
    }

    /* Output deferred-instance list. */
    {
        xmlNodePtr instNode;
        SXTmpStateData *tsd;
        GList *l;

        for ( l = gnc_sx_get_defer_instances( sx ); l; l = l->next )
        {
            tsd = (SXTmpStateData*)l->data;

            instNode = xmlNewNode( NULL, BAD_CAST SX_DEFER_INSTANCE );
            if ( g_date_valid( &tsd->last_date ) )
            {
                xmlAddChild( instNode, gdate_to_dom_tree( SX_LAST,
                             &tsd->last_date ) );
            }
            xmlAddChild( instNode, int_to_dom_tree( SX_REM_OCCUR,
                                                    tsd->num_occur_rem ) );
            xmlAddChild( instNode, int_to_dom_tree( SX_INSTANCE_COUNT,
                                                    tsd->num_inst ) );
            xmlAddChild( ret, instNode );
        }
    }

    /* output kvp_frame */
    {
        xmlNodePtr kvpnode =
            kvp_frame_to_dom_tree( SX_SLOTS,
                                   xaccSchedXactionGetSlots(sx) );
        if ( kvpnode )
        {
            xmlAddChild(ret, kvpnode);
        }
    }

    return ret;
}

struct sx_pdata
{
    SchedXaction *sx;
    QofBook *book;
    gboolean saw_freqspec;
    gboolean saw_recurrence;
};

static
gboolean
sx_id_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    GncGUID        *tmp = dom_tree_to_guid( node );

    g_return_val_if_fail( tmp, FALSE );
    xaccSchedXactionSetGUID(sx, tmp);
    g_free( tmp );

    return TRUE;
}

static
gboolean
sx_name_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gchar *tmp = dom_tree_to_text( node );
    g_debug("sx named [%s]", tmp);
    g_return_val_if_fail( tmp, FALSE );
    xaccSchedXactionSetName( sx, tmp );
    g_free( tmp );
    return TRUE;
}

static gboolean
sx_enabled_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gchar *tmp = dom_tree_to_text( node );

    sx->enabled = (safe_strcmp( tmp, "y" ) == 0 ? TRUE : FALSE );

    return TRUE;
}

static gboolean
sx_autoCreate_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gchar *tmp = dom_tree_to_text( node );

    sx->autoCreateOption = (safe_strcmp( tmp, "y" ) == 0 ? TRUE : FALSE );

    return TRUE;
}

static gboolean
sx_notify_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gchar *tmp = dom_tree_to_text( node );

    sx->autoCreateNotify = (safe_strcmp( tmp, "y" ) == 0 ? TRUE : FALSE );

    return TRUE;
}

static gboolean
sx_advCreate_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gint64 advCreate;

    if ( ! dom_tree_to_integer( node, &advCreate ) )
    {
        return FALSE;
    }

    xaccSchedXactionSetAdvanceCreation( sx, advCreate );
    return TRUE;
}

static gboolean
sx_advRemind_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gint64 advRemind;

    if ( ! dom_tree_to_integer( node, &advRemind ) )
    {
        return FALSE;
    }

    xaccSchedXactionSetAdvanceReminder( sx, advRemind );
    return TRUE;
}

static
gboolean
sx_set_date( xmlNodePtr node, SchedXaction *sx,
             void (*settor)( SchedXaction *sx, const GDate *d ) )
{
    GDate *date;
    date = dom_tree_to_gdate( node );
    g_return_val_if_fail( date, FALSE );
    (*settor)( sx, date );
    g_date_free( date );

    return TRUE;
}

static
gboolean
sx_instcount_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gint64 instanceNum;

    if ( ! dom_tree_to_integer( node, &instanceNum ) )
    {
        return FALSE;
    }

    gnc_sx_set_instance_count( sx, instanceNum );
    return TRUE;
}

static
gboolean
sx_start_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;

    return sx_set_date( node, sx, xaccSchedXactionSetStartDate );
}

static
gboolean
sx_last_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;

    return sx_set_date( node, sx, xaccSchedXactionSetLastOccurDate );
}

static
gboolean
sx_end_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;

    return sx_set_date( node, sx, xaccSchedXactionSetEndDate );
}

static void
_fixup_recurrence_start_dates(const GDate *sx_start_date, GList *schedule)
{
    GList *iter;
    for (iter = schedule; iter != NULL; iter = iter->next)
    {
        Recurrence *r;
        GDate start, next;

        r = (Recurrence*)iter->data;

        start = *sx_start_date;
        g_date_subtract_days(&start, 1);

        g_date_clear(&next, 1);

        recurrenceNextInstance(r, &start, &next);
        g_return_if_fail(g_date_valid(&next));

        {
            gchar date_str[128];
            gchar *sched_str;

            g_date_strftime(date_str, 127, "%x", &next);
            sched_str = recurrenceToString(r);
            g_debug("setting recurrence [%s] start date to [%s]",
                    sched_str, date_str);
            g_free(sched_str);
        }

        recurrenceSet(r,
                      recurrenceGetMultiplier(r),
                      recurrenceGetPeriodType(r),
                      &next,
                      recurrenceGetWeekendAdjust(r));
    }

    if (g_list_length(schedule) == 1
            && recurrenceGetPeriodType((Recurrence*)g_list_nth_data(schedule, 0)) == PERIOD_ONCE)
    {
        char date_buf[128];
        Recurrence *fixup = (Recurrence*)g_list_nth_data(schedule, 0);
        g_date_strftime(date_buf, 127, "%x", sx_start_date);
        recurrenceSet(fixup, 1, PERIOD_ONCE, sx_start_date, WEEKEND_ADJ_NONE);
        g_debug("fixed up period=ONCE Recurrence to date [%s]", date_buf);
    }
}

static gboolean
sx_freqspec_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    GList *schedule;
    gchar* debug_str;

    g_return_val_if_fail( node, FALSE );

    schedule = dom_tree_freqSpec_to_recurrences(node, pdata->book);
    gnc_sx_set_schedule(sx, schedule);
    debug_str = recurrenceListToString(schedule);
    g_debug("parsed from freqspec [%s]", debug_str);
    g_free(debug_str);

    _fixup_recurrence_start_dates(xaccSchedXactionGetStartDate(sx), schedule);
    pdata->saw_freqspec = TRUE;

    return TRUE;
}

static gboolean
sx_schedule_recurrence_handler(xmlNodePtr node, gpointer parsing_data)
{
    GList **schedule = (GList**)parsing_data;
    gchar* sched_str;
    Recurrence *r = dom_tree_to_recurrence(node);
    g_return_val_if_fail(r, FALSE);
    sched_str = recurrenceToString(r);
    g_debug("parsed recurrence [%s]", sched_str);
    g_free(sched_str);
    *schedule = g_list_append(*schedule, r);
    return TRUE;
}

struct dom_tree_handler sx_recurrence_list_handlers[] =
{
    { "gnc:recurrence", sx_schedule_recurrence_handler, 0, 0 },
    { NULL, NULL, 0, 0 }
};

static gboolean
sx_recurrence_handler(xmlNodePtr node, gpointer _pdata)
{
    struct sx_pdata *parsing_data = _pdata;
    GList *schedule = NULL;
    gchar* debug_str;

    g_return_val_if_fail(node, FALSE);

    if (!dom_tree_generic_parse(node, sx_recurrence_list_handlers, &schedule))
        return FALSE;
    // g_return_val_if_fail(schedule, FALSE);
    debug_str = recurrenceListToString(schedule);
    g_debug("setting freshly-parsed schedule: [%s]", debug_str);
    g_free(debug_str);
    gnc_sx_set_schedule(parsing_data->sx, schedule);
    parsing_data->saw_recurrence = TRUE;
    return TRUE;
}

static
gboolean
sx_defer_last_handler( xmlNodePtr node, gpointer gpTSD )
{
    GDate *gd;
    SXTmpStateData *tsd = (SXTmpStateData*)gpTSD;

    g_return_val_if_fail( node, FALSE );
    gd = dom_tree_to_gdate( node );
    g_return_val_if_fail( gd, FALSE );
    tsd->last_date = *gd;
    g_date_free( gd );
    return TRUE;
}

static
gboolean
sx_defer_rem_occur_handler( xmlNodePtr node, gpointer gpTSD )
{
    gint64 remOccur;
    SXTmpStateData *tsd = (SXTmpStateData*)gpTSD;
    g_return_val_if_fail( node, FALSE );

    if ( ! dom_tree_to_integer( node, &remOccur ) )
    {
        return FALSE;
    }
    tsd->num_occur_rem = remOccur;
    return TRUE;
}

static
gboolean
sx_defer_inst_count_handler( xmlNodePtr node, gpointer gpTSD )
{
    gint64 instCount;
    SXTmpStateData *tsd = (SXTmpStateData*)gpTSD;
    g_return_val_if_fail( node, FALSE );

    if ( ! dom_tree_to_integer( node, &instCount ) )
    {
        return FALSE;
    }
    tsd->num_inst = instCount;
    return TRUE;
}

struct dom_tree_handler sx_defer_dom_handlers[] =
{
    /* tag name, handler, opt, ? */
    { SX_LAST,           sx_defer_last_handler,       1, 0 },
    { SX_REM_OCCUR,      sx_defer_rem_occur_handler,  1, 0 },
    { SX_INSTANCE_COUNT, sx_defer_inst_count_handler, 1, 0 },
    { NULL, NULL, 0, 0 }
};

static
gboolean
sx_defer_inst_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    SXTmpStateData *tsd;

    g_return_val_if_fail( node, FALSE );

    tsd = g_new0( SXTmpStateData, 1 );
    g_assert( sx_defer_dom_handlers != NULL );
    if ( !dom_tree_generic_parse( node,
                                  sx_defer_dom_handlers,
                                  tsd ) )
    {
        xmlElemDump(stdout, NULL, node);
        g_free( tsd );
        tsd = NULL;
        return FALSE;
    }

    /* We assume they were serialized in sorted order, here. */
    sx->deferredList = g_list_append( sx->deferredList, tsd );
    return TRUE;
}

static
gboolean
sx_numOccur_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gint64 numOccur;

    if ( ! dom_tree_to_integer( node, &numOccur ) )
    {
        return FALSE;
    }

    xaccSchedXactionSetNumOccur( sx, numOccur );

    return TRUE;
}


static
gboolean
sx_templ_acct_handler( xmlNodePtr node, gpointer sx_pdata)
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    GncGUID *templ_acct_guid = dom_tree_to_guid(node);
    Account *account;

    if (!templ_acct_guid)
    {
        return FALSE;
    }

    account = xaccAccountLookup(templ_acct_guid, pdata->book);
    sx_set_template_account(sx, account);
    g_free(templ_acct_guid);

    return TRUE;
}


static
gboolean
sx_remOccur_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;
    gint64        remOccur;

    if ( ! dom_tree_to_integer( node, &remOccur ) )
    {
        return FALSE;
    }

    xaccSchedXactionSetRemOccur( sx, remOccur );

    return TRUE;
}

static
gboolean
sx_slots_handler( xmlNodePtr node, gpointer sx_pdata )
{
    struct sx_pdata *pdata = sx_pdata;
    SchedXaction *sx = pdata->sx;

    return dom_tree_to_kvp_frame_given( node, xaccSchedXactionGetSlots (sx) );
}

struct dom_tree_handler sx_dom_handlers[] =
{
    { SX_ID,                  sx_id_handler,         1, 0 },
    { SX_NAME,                sx_name_handler,       1, 0 },
    { SX_ENABLED,             sx_enabled_handler,    0, 0 },
    { SX_AUTOCREATE,          sx_autoCreate_handler, 1, 0 },
    { SX_AUTOCREATE_NOTIFY,   sx_notify_handler,     1, 0 },
    { SX_ADVANCE_CREATE_DAYS, sx_advCreate_handler,  1, 0 },
    { SX_ADVANCE_REMIND_DAYS, sx_advRemind_handler,  1, 0 },
    { SX_INSTANCE_COUNT,      sx_instcount_handler,  0, 0 },
    { SX_START,               sx_start_handler,      1, 0 },
    { SX_LAST,                sx_last_handler,       0, 0 },
    { SX_NUM_OCCUR,           sx_numOccur_handler,   0, 0 },
    { SX_REM_OCCUR,           sx_remOccur_handler,   0, 0 },
    { SX_END,                 sx_end_handler,        0, 0 },
    { SX_TEMPL_ACCT,          sx_templ_acct_handler, 0, 0 },
    { SX_FREQSPEC,            sx_freqspec_handler,   0, 0 },
    { SX_SCHEDULE,            sx_recurrence_handler, 0, 0 },
    { SX_DEFER_INSTANCE,      sx_defer_inst_handler, 0, 0 },
    { SX_SLOTS,               sx_slots_handler,      0, 0 },
    { NULL,                   NULL, 0, 0 }
};

static gboolean
gnc_schedXaction_end_handler(gpointer data_for_children,
                             GSList* data_from_children, GSList* sibling_data,
                             gpointer parent_data, gpointer global_data,
                             gpointer *result, const gchar *tag)
{
    SchedXaction *sx;
    gboolean     successful = FALSE;
    xmlNodePtr   tree = (xmlNodePtr)data_for_children;
    gxpf_data    *gdata = (gxpf_data*)global_data;
    struct sx_pdata sx_pdata;

    if ( parent_data )
    {
        return TRUE;
    }

    if ( !tag )
    {
        return TRUE;
    }

    g_return_val_if_fail( tree, FALSE );

    sx = xaccSchedXactionMalloc( gdata->bookdata );

    memset(&sx_pdata, 0, sizeof(sx_pdata));
    sx_pdata.sx = sx;
    sx_pdata.book = gdata->bookdata;

    g_assert( sx_dom_handlers != NULL );

    successful = dom_tree_generic_parse( tree, sx_dom_handlers, &sx_pdata );
    if (!successful)
    {
        g_critical("failed to parse scheduled xaction");
        xmlElemDump( stdout, NULL, tree );
        gnc_sx_begin_edit( sx );
        xaccSchedXactionDestroy( sx );
        goto done;
    }

    if (tree->properties)
    {
        gchar *sx_name = xaccSchedXactionGetName(sx);
        xmlAttr *attr;
        for (attr = tree->properties; attr != NULL; attr = attr->next)
        {
            xmlChar *attr_value = attr->children->content;
            g_debug("sx attribute name[%s] value[%s]", attr->name, attr_value);
            if (strcmp((const char *)attr->name, "version") != 0)
            {
                g_warning("unknown sx attribute [%s]", attr->name);
                continue;
            }

            // if version == 1.0.0: ensure freqspec, no recurrence
            // if version == 2.0.0: ensure recurrence, no freqspec.
            if (strcmp((const char *)attr_value,
                       schedxaction_version_string) == 0)
            {
                if (!sx_pdata.saw_freqspec)
                    g_critical("did not see freqspec in version 1 sx [%s]", sx_name);
                if (sx_pdata.saw_recurrence)
                    g_warning("saw recurrence in supposedly version 1 sx [%s]", sx_name);
            }

            if (strcmp((const char *)attr_value,
                       schedxaction_version2_string) == 0)
            {
                if (sx_pdata.saw_freqspec)
                    g_warning("saw freqspec in version 2 sx [%s]", sx_name);
                if (!sx_pdata.saw_recurrence)
                    g_critical("did not find recurrence in version 2 sx [%s]", sx_name);
            }
        }
    }

    // generic_callback -> book_callback: insert the SX in the book
    gdata->cb( tag, gdata->parsedata, sx );

    /* FIXME: this should be removed somewhere near 1.8 release time. */
    if ( sx->template_acct == NULL )
    {
        Account *ra = NULL;
        const char *id = NULL;
        Account *acct = NULL;
        sixtp_gdv2 *sixdata = gdata->parsedata;
        QofBook *book;

        book = sixdata->book;

        /* We're dealing with a pre-200107<near-end-of-month> rgmerk
           change re: storing template accounts. */
        /* Fix: get account with name of our GncGUID from the template
           accounts.  Make that our template_acct pointer. */
        /* THREAD-UNSAFE */
        id = guid_to_string( xaccSchedXactionGetGUID( sx ) );
        ra = gnc_book_get_template_root(book);
        if ( ra == NULL )
        {
            g_warning( "Error getting template root account from being-parsed Book." );
            xmlFreeNode( tree );
            return FALSE;
        }
        acct = gnc_account_lookup_by_name( ra, id );
        if ( acct == NULL )
        {
            g_warning("no template account with name [%s]", id);
            xmlFreeNode( tree );
            return FALSE;
        }
        g_debug("template account name [%s] for SX with GncGUID [%s]",
                xaccAccountGetName( acct ), id );

        /* FIXME: free existing template account.
         *  HUH????? We only execute this if there isn't
         * currently an existing template account, don't we?
         * <rgmerk>
         */

        sx->template_acct = acct;
    }

done:
    xmlFreeNode( tree );

    return successful;
}

sixtp*
gnc_schedXaction_sixtp_parser_create(void)
{
    return sixtp_dom_parser_new( gnc_schedXaction_end_handler, NULL, NULL );
}

static
gboolean
tt_act_handler( xmlNodePtr node, gpointer data )
{
    gnc_template_xaction_data *txd = data;
    Account *acc;
    gnc_commodity *com;

    acc = dom_tree_to_account(node, txd->book);

    if ( acc == NULL )
    {
        return FALSE;
    }
    else
    {
        xaccAccountBeginEdit (acc);

        /* Check for the lack of a commodity [signifying that the
           pre-7/11/2001-CIT-change SX template Account was parsed [but
           incorrectly]. */
        if ( xaccAccountGetCommodity( acc ) == NULL )
        {
#if 1
            gnc_commodity_table* table;

            table = gnc_commodity_table_get_table( txd->book );
            com = gnc_commodity_table_lookup( table,
                                              "template", "template" );
#else
            /* FIXME: This should first look in the table of the
               book, maybe? The right thing happens [WRT file
               load/save] if we just _new all the time, but it
               doesn't seem right. This whole block should go
               away at some point, but the same concern still
               applies for
               SchedXaction.c:xaccSchedXactionInit... */
            com = gnc_commodity_new( txd->book,
                                     "template", "template",
                                     "template", "template",
                                     1 );
#endif
            xaccAccountSetCommodity( acc, com );
        }

        txd->accts = g_list_append( txd->accts, acc );
    }

    return TRUE;
}

static
gboolean
tt_trn_handler( xmlNodePtr node, gpointer data )
{
    gnc_template_xaction_data *txd = data;
    Transaction        *trn;

    trn = dom_tree_to_transaction( node, txd->book );

    if ( trn == NULL )
    {
        return FALSE;
    }
    else
    {
        txd->transactions = g_list_append( txd->transactions, trn );
    }

    return TRUE;
}

struct dom_tree_handler tt_dom_handlers[] =
{
    { GNC_ACCOUNT_TAG,     tt_act_handler, 0, 0 },
    { GNC_TRANSACTION_TAG, tt_trn_handler, 0, 0 },
    { NULL, NULL, 0, 0 },
};

static gboolean
gnc_template_transaction_end_handler(gpointer data_for_children,
                                     GSList* data_from_children,
                                     GSList* sibling_data,
                                     gpointer parent_data,
                                     gpointer global_data,
                                     gpointer *result,
                                     const gchar *tag)
{
    gboolean   successful = FALSE;
    xmlNodePtr tree = data_for_children;
    gxpf_data  *gdata = global_data;
    QofBook    *book = gdata->bookdata;
    GList      *n;
    gnc_template_xaction_data txd;

    txd.book = book;
    txd.accts = NULL;
    txd.transactions = NULL;

    /* the DOM tree will have an account tree [the template
       accounts] and a list of transactions [which will be members
       of the template account].

       we want to parse through the dom trees for each, placing
       the null-parent account in the book's template-group slot,
       the others under it, and the transactions as normal. */

    if ( parent_data )
    {
        return TRUE;
    }

    if ( !tag )
    {
        return TRUE;
    }

    g_return_val_if_fail( tree, FALSE );

    successful = dom_tree_generic_parse( tree, tt_dom_handlers, &txd );

    if ( successful )
    {
        gdata->cb( tag, gdata->parsedata, &txd );
    }
    else
    {
        g_warning("failed to parse template transaction");
        xmlElemDump( stdout, NULL, tree );
    }

    /* cleanup */
    for ( n = txd.accts; n; n = n->next )
    {
        n->data = NULL;
    }
    for ( n = txd.transactions; n; n = n->next )
    {
        n->data = NULL;
    }
    g_list_free( txd.accts );
    g_list_free( txd.transactions );

    xmlFreeNode( tree );

    return successful;
}

sixtp*
gnc_template_transaction_sixtp_parser_create( void )
{
    return sixtp_dom_parser_new( gnc_template_transaction_end_handler,
                                 NULL, NULL );
}
